Developing Scalable Java Microservices for Healthcare Applications

Abstract

Elderly people with infectious infections are challenging to treat; as they often present to consultations with severe, advanced symptoms, they are frequently sent to emergency care. The hypothesis was that a patient's health might be considerably enhanced and the strain on emergency health system services could be lessened by delaying an infectious illness diagnosis by a few days. Chatbots that can monitor a patient's status, deliver targeted information, promote drug adherence, and more might be especially helpful for patients with comorbidities or chronic illnesses. Chatbots need an appropriate underlying software architecture in order to carry out these tasks. A better data analytics approach promotes process efficiency in addition to offering helpful insights in IoT data. It is difficult to create a solid IoT-based safe analytical model for a number of reasons, including data from many sources, growing data volumes, and monolithic service design methodologies. In order to facilitate predictive analytics for individualised fitness data in an Internet of Things setting, this study suggested an intelligent blockchain-enabled microservice. The system's architecture supports microservice-based analytical features to provide dependable and safe Internet of Things services. A key strategy for creating scalable and maintained cloud-native apps is microservices architecture. Microservices, in contrast to conventional monolithic designs, break down applications into discrete, independently deployable services that interact via well-defined APIs. By improving modularity, this architectural change makes it possible to increase scalability, robustness, and flexibility. Because healthcare data is sensitive, it needs extra security against the possibility of illegal access. Data privacy is a crucial issue. In addition to presenting patient empowerment, this research emphasises the significance of data empowerment in the healthcare industry. Several facets of the traditional architecture and Service-Oriented Architecture against microservices architecture are examined in order to address the deployment of an appropriate and effective architecture for a remote healthcare monitoring system. A case study is provided on the RO-Smart Ageing programming system, which is used to enhance the management of health data.